Performance of Direct-Drive Linear Motor Stages in Precision Positioning Applications

Brushless direct drive linear motors provide advantages over leadscrew and ballscrew driven positioning stages when it comes parameters such as acceleration, maximum speed, accuracy, constancy of velocity, and avoidance of vibration. This article explains types of motors, encoders and provides test data of PI’s new V-551 linear motor stage.   Iron Core and Ironless Motors […]

High Stability Positioning Stage with Self-Clamping Ceramic Linear Motors Provides Long-Term Nanoscale Stability

An insidious nanoscale instability process is the quasi-asymptotic settling due to lubricant flow processes in drive, alignment and adjustment elements such as lead-screws and micrometer drives. It has been thought that this progresses at the nanoscale over many minutes, but conventional position-metrology instrumentation is typically less stable than recent process tolerances over the timescales involved, […]

Improving Accuracy of Long Travel Linear Positioning Stages with Error Mapping

Linear encoders significantly improve the accuracy and repeatability in stepper or servo-motor positioning stages based on lead or ballscrew drives – they remove drivetrain based play, backlash, and screw pitch errors. But even the best linear encoders are not perfectly linear. As long as these linearity errors are repeatable, there is a way to reduce […]

Piezo Transducers, Actuators, and Motor Drive Solutions for Medical Engineering

Medical engineering and life-science disciplines have multi-faceted requirements for motion and positioning equipment: the spectrum spans from ultrasonic transducers to simple low-energy drive components to high-precision positioning systems and ultra-fast actuators for valve and pumping applications. Piezoceramic transducers and motor drives meet these needs and have a long track record of reliability and ruggedness in […]

Performance, Resolution, and Velocity Control of Stepper Motor-Driven Precision Positioners

Stepper Motor Basics Many processes in production, automation, and research rely on precisely moving, adjusting and aligning tools, optics, and components. Precision positioning equipment, based on a rotating electric motor and some kind of screw drive or worm gear drive to transfer and convert the output at the motor shaft into motion at the positioning […]

Advances in Precision Motorized Positioning Systems: Selection Criteria

Motion drive and control technologies are advancing rapidly. This means engineers have access to an expanding spectrum of options to leverage previously unattainable performance and form factors. Rapidly evolving production processes have driven needs for motion control systems that provide higher accuracy, speed, resolution, and repeatability. The motion industry has responded with an expanding palette […]

Overview of Different Piezo Motor Design Principles

The basic principle of the piezo ceramic motor has been known for almost 100 years. However, it took decades to get from an idea to a reliable, industrial product. Just like with electromagnetic motors, many different types have been developed and tested over the years. Today, one can say that piezo motors have become mainstream […]

Ultra-Stable Mirror Mounts for LINC-NIRVANA High Resolution Imager are based on Self-clamping PiezoWalk Motors

An extremely stable motorized mount for initial alignment of two dichroic beam splitters in the instrument was required. The mirrors reflect visible light and transmit the NIR are located close to the pupil plane are very sensitive to tilt and flexure errors which could be introduced to the wave-front sensor. The technical specifications to be […]

Reliability of Ultrasonic Motors

1.  Overview PILine® positioning systems are based on a direct drive using ultrasonic piezo motors. Therefore, very low response times as well as accurate positioning can be accomplished. Due to the particular operating principle, PILine® ultrasonic motors are self-locking even when switched off, a great advantage when it comes to position stability. Ultrasonic motors are […]

Positioning Capabilities of Ultrasonic Motors

  1.  Overview While conventional positioning systems convert the rotary motion of a motor into linear motion using a spindle, PILine® positioning systems are based on a special direct drive. This completely eliminates backlash and play and enhances the response time and positioning accuracy. Furthermore, they offer high-resolution positioning and fast step-and-settle performance. At the […]

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About PI

PI (Physik Instrumente) is a leading manufacturer of precision motion control equipment, piezo motors, air bearing stages and hexapod parallel-kinematics for semiconductor applications, photonics, bio-nano-technology and medical engineering. PI has been developing and manufacturing standard & custom precision products with piezoceramic and electromagnetic drives for 4 decades. The company has been ISO 9001 certified since 1994 and provides innovative, high-quality solutions for OEM and research. PI is present worldwide with fifteen subsidiaries, R&D / engineering on 3 continents and total staff of more than 1,000.

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